Rpl24 - Rat, 4 unique 29mer shRNA constructs in lentiviral GFP vector, 5µg of each construct provided
Format | Lentiviral plasmids |
Vector | pGFP-C-shLenti |
Rpl24 - Rat, 4 unique 29mer shRNA constructs in lentiviral GFP vector, 5µg of each construct provided
Format | Lentiviral plasmids |
Vector | pGFP-C-shLenti |
Rpl24 - Rat, 4 unique 29mer shRNA constructs in retroviral untagged vector, 5µg of each construct provided
Format | Retroviral plasmids |
Vector | pRS |
Rpl24 - Mouse, 4 unique 29mer shRNA constructs in lentiviral GFP vector, 5µg of each construct provided
Format | Lentiviral plasmids |
Vector | pGFP-C-shLenti |
Rpl24 - Mouse, 4 unique 29mer shRNA constructs in retroviral untagged vector, 5µg of each construct provided
Format | Retroviral plasmids |
Vector | pRS |
Rpl24 (untagged ORF) - Rat ribosomal protein L24 (Rpl24), (10 ug)
Type | Rat Untagged Clone |
Tag | Tag Free |
Vector | pCMV6-Entry |
Rpl24 (untagged) - Mouse ribosomal protein L24 (Rpl24), (10ug)
Type | Mouse Untagged Clone |
Tag | Tag Free |
Vector | pCMV6-Entry |
3' UTR clone of ribosomal protein L24 (RPL24) for miRNA target validation
Vector | pMirTarget |
Species | Human |
Transfection Reporter | RFP |
Assay Reporter | Luciferase |
qSTAR qPCR primer pairs against Homo sapiens gene RPL24
qSTAR qPCR primer pairs against Mus musculus gene Rpl24
Transient overexpression of RPL24 in HEK293T cells, FFPE control for IHC, ICC and ISH staining, 25 slides per pack
Rpl24 (Mouse) - 3 unique 27mer siRNA duplexes - 2 nmol each
Purity | HPLC purified |
Number of Transfections | Approximately 330 transfections/2nmol in 24-well plate under optimized conditions (final conc. 10 nM). |
Rpl24 (Rat) - 3 unique 27mer siRNA duplexes - 2 nmol each
Purity | HPLC purified |
Number of Transfections | Approximately 330 transfections/2nmol in 24-well plate under optimized conditions (final conc. 10 nM). |
RPL24 (Human) - 3 unique 27mer siRNA duplexes - 2 nmol each
Purity | HPLC purified |
Number of Transfections | Approximately 330 transfections/2nmol in 24-well plate under optimized conditions (final conc. 10 nM). |